Traffic and Highway Engineering - With Mindtap
Traffic and Highway Engineering - With Mindtap
5th Edition
ISBN: 9781305360990
Author: Garber
Publisher: CENGAGE L
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Chapter 20, Problem 27P
To determine

The expected speed predicted transverse cracking for the associated applied stresses and five traffic levels.

Expert Solution & Answer
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Answer to Problem 27P

  CRK=0.309

Explanation of Solution

Given information:

Modulus of rupture of the PCC is =650 lb/in2.

Traffic and Highway Engineering - With Mindtap, Chapter 20, Problem 27P

Calculation:

  • Determine the allowable number of load applications for each axle level load
  •   (use Eq. 20.43) from textbook "Traffic and Highway Engineering, 5th Edition".

  log(N i.j,k,l,m,n)=C1( S i c,i σ i.j,k,l,m,n )C2.......(1)whereNi.j,k,l,m,n = allowable number of load applications at condition i,j,k,l,m,nSic,i=650=PCC modulus rupture at age i (lb/in2)σi.j,k,l,m,n=300=applied stress at condition i,j,k,l,m,nC1=calibration constant, 2.0C2=calibration constant, 1.22

Substitute values in equation (1) we get,

  log(N i.j,k,l,m,n)=C1( S i c,i σ i.j,k,l,m,n )C2log(N i.j,k,l,m,n)=2( 650 300)1.22log(N i.j,k,l,m,n)=2(2.166)1.22log(N i.j,k,l,m,n)=5.137Ni.j,k,l,m,n=log15.137Ni.j,k,l,m,n=0.137×106

Calculate the second row of fourth column for allowable number of load applications are,

  log(N i.j,k,l,m,n)=C1( S i c,i σ i.j,k,l,m,n )C2log(N i.j,k,l,m,n)=2( 650 280)1.22log(N i.j,k,l,m,n)=2(2.321)1.22log(N i.j,k,l,m,n)=2(2.793)log(N i.j,k,l,m,n)=5.586Ni.j,k,l,m,n=log15.586Ni.j,k,l,m,n=0.385×106

Calculate the third row of fourth column for allowable number of load applications are,

  log(N i.j,k,l,m,n)=C1( S i c,i σ i.j,k,l,m,n )C2log(N i.j,k,l,m,n)=2( 650 275)1.22log(N i.j,k,l,m,n)=2(2.363)1.22log(N i.j,k,l,m,n)=2(2.855)log(N i.j,k,l,m,n)=5.710Ni.j,k,l,m,n=log15.710Ni.j,k,l,m,n=0.512×106

Calculate the fourth row of fourth column for allowable number of load applications are,

  log(N i.j,k,l,m,n)=C1( S i c,i σ i.j,k,l,m,n )C2log(N i.j,k,l,m,n)=2( 650 270)1.22log(N i.j,k,l,m,n)=5.840Ni.j,k,l,m,n=log15.840Ni.j,k,l,m,n=0.691×106

Calculate the fifth row of fourth column for allowable number of load applications are,

  log(N i.j,k,l,m,n)=C1( S i c,i σ i.j,k,l,m,n )C2log(N i.j,k,l,m,n)=2( 650 260)1.22log(N i.j,k,l,m,n)=5.840Ni.j,k,l,m,n=log16.116Ni.j,k,l,m,n=1.308×106

Allowable number of load applications are tabulated in the table.

  • Determine total fatigue damage from Eq. 20.42of textbook "Traffic and Highway Engineering, 5th Edition" by using the formula,
  •   DIFn i,j,k,l,m,nN i,j,k,l,m,ni=agej=monthk=axle typel=load levelm=equivalent temperature difference between top and PCC surfacen=traffic offset patho=hourle truck traffic

  For second row of column five is calculated as,DIF=0.02×1060.137×106DIF=0.146

For second row of column fiveis calculated as,

  DIF=n i,j,k,l,m,nN i,j,k,l,m,ni=agej=monthk=axle typel=load levelm=equivalent temperature difference between top and PCC surfacen=traffic offset patho=hourle truck trafficDIF=0.05× 1060.385× 106DIF=0.129

For third row of column fiveis calculated as,

  DIF=n i,j,k,l,m,nN i,j,k,l,m,nDIF=0.08× 1060.512× 106DIF=0.156

For fourth row of column fiveis calculated as,

  DIF=n i,j,k,l,m,nN i,j,k,l,m,nDIF=0.10× 1060.691× 106DIF=0.144

For fifth row of column fiveis calculated as,

  DIF=n i,j,k,l,m,nN i,j,k,l,m,nDIF=0.12× 1061.308× 106DIF=0.091

Therefore, total fatigue damage as shown in below table.

Load levelNumber of applications(n)Applied stresses,
  σi.j,k,l,m,n
  (lb/in2)
Allowable number of load applicationsTotal fatigue damage,
  DIF
  1  0.02×106  300  0.137×106  0.146
  2  0.05×106  280  0.385×106  0.129
  3  0.08×106  275  0.512×106  0.156
  4  0.10×106  270  0.691×106  0.144
  5  0.12×106  260  1.308×106  0.091
  sum=0.666
  • Determine the predicted amount of transverse cracking. Use Eq. 20.41 from textbook "Traffic and Highway Engineering, 5th Edition".

  CRK=11+ ( D I F ) 1.98CRK=11+ ( 0.666 ) 1.98CRK=11+2.236CRK=13.236CRK=0.309

Conclusion:

Therefore, the expected speed predicted transverse cracking for the associated applied stresses and five traffic levels is 0.309.

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